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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Severe
malaria
is caused by the apicomplexan parasite
Plasmodium falciparum.
Despite decades of research, the distinct biology of these parasites has made it challenging to establish high-throughput genetic approaches to identify and prioritize therapeutic targets. Using transposon mutagenesis of
P. falciparum
in an approach that exploited its AT-rich genome, we generated more than 38,000 mutants, saturating the genome and defining mutability and fitness costs for over 87% of genes. Of 5399 genes, our study defined 2680 genes as essential for optimal growth of asexual blood stages in vitro. These essential genes are associated with drug resistance, represent leading vaccine candidates, and include approximately 1000
Plasmodium
-conserved genes of
unknown function
. We validated this approach by testing proteasome pathways for individual mutants associated with artemisinin sensitivity.
...
PMID:Uncovering the essential genes of the human malaria parasite
Plasmodium falciparum
by saturation mutagenesis. 2972 41
Malaria
parasites (Plasmodium spp.) and related apicomplexan pathogens contain a nonphotosynthetic plastid called the apicoplast. Derived from an unusual secondary eukaryote-eukaryote endosymbiosis, the apicoplast is a fascinating organelle whose function and biogenesis rely on a complex amalgamation of bacterial and algal pathways. Because these pathways are distinct from the human host, the apicoplast is an excellent source of novel antimalarial targets. Despite its biomedical importance and evolutionary significance, the absence of a reliable apicoplast proteome has limited most studies to the handful of pathways identified by homology to bacteria or primary chloroplasts, precluding our ability to study the most novel apicoplast pathways. Here, we combine proximity biotinylation-based proteomics (BioID) and a new machine learning algorithm to generate a high-confidence apicoplast proteome consisting of 346 proteins. Critically, the high accuracy of this proteome significantly outperforms previous prediction-based methods and extends beyond other BioID studies of unique parasite compartments. Half of identified proteins have
unknown function
, and 77% are predicted to be important for normal blood-stage growth. We validate the apicoplast localization of a subset of novel proteins and show that an ATP-binding cassette protein ABCF1 is essential for blood-stage survival and plays a previously unknown role in apicoplast biogenesis. These findings indicate critical organellar functions for newly discovered apicoplast proteins. The apicoplast proteome will be an important resource for elucidating unique pathways derived from secondary endosymbiosis and prioritizing antimalarial drug targets.
...
PMID:Integrative proteomics and bioinformatic prediction enable a high-confidence apicoplast proteome in malaria parasites. 3021 65
Malaria
continues to be a major concern in developing countries despite continuous efforts to find a cure for the disease. Understanding the pathogenesis mechanism is necessary to identify more effective drug targets against
malaria
. Many years of experimental research have generated a large amount of data for the malarial parasite, Plasmodium falciparum. These data are useful to understand the importance of certain parasite proteins, but it often remains unclear how these proteins come together, interact with other proteins and carry out their function. Identification of all proteins involved in pathogenesis is an important step towards understanding the molecular mechanism of pathogenesis. In this study, dynamic stage-specific protein-protein interaction networks were created based on gene expression data during the parasite's intra-erythrocytic stages and static protein-protein interaction data. Using previously known proteins of a biological event as seed proteins, the random walk with restart (RWR) method was used on the dynamic protein-protein interaction networks to identify novel proteins related to that event. Two screening procedures namely, permutation test and GO enrichment test were performed to increase the reliability of the RWR predictions. The proposed method was first validated on Plasmodium falciparum proteins related to invasion, where it could reproduce the existing knowledge from a small set of seed proteins. It was then used to identify novel Maurer's clefts resident proteins, where it could identify 152 parasite proteins. We show that the current approach can annotate conserved proteins with
unknown function
. The predicted proteins can help build a mechanistic model for disease pathogenesis, which will be useful in identifying new drug targets.
...
PMID:A network-based approach reveals novel invasion and Maurer's clefts-related proteins in Plasmodium falciparum. 3163 Dec 3
Artemisinins are effective against a variety of parasites and provide the first line of treatment for
malaria
. Laboratory studies have identified several mechanisms for artemisinin resistance in
Plasmodium falciparum
, including mutations in Kelch13 that are associated with delayed clearance in some clinical isolates, although other mechanisms are likely involved. To explore other potential mechanisms of resistance in parasites, we took advantage of the genetic tractability of
Toxoplasma gondii
, a related parasite that shows moderate sensitivity to artemisinin. Resistant populations of
T. gondii
were selected by culture in increasing concentrations and whole-genome sequencing identified several nonconservative point mutations that emerged in the population and were fixed over time. Genome editing using CRISPR/Cas9 was used to introduce point mutations conferring amino acid changes in a serine protease homologous to DegP and a serine/threonine protein kinase of
unknown function
. Single and double mutations conferred a competitive advantage over wild-type parasites in the presence of drug, despite not changing EC
50
values. Additionally, the evolved resistant lines showed dramatic amplification of the mitochondria genome, including genes encoding cytochrome
b
and cytochrome
c
oxidase I. Prior studies in yeast and mammalian tumor cells implicate the mitochondrion as a target of artemisinins, and treatment of wild-type parasites with high concentrations of drug decreased mitochondrial membrane potential, a phenotype that was stably altered in the resistant parasites. These findings extend the repertoire of mutations associated with artemisinin resistance and suggest that the mitochondrion may be an important target of inhibition of resistance in
T. gondii
.
...
PMID:Evolution of resistance in vitro reveals mechanisms of artemisinin activity in
Toxoplasma gondii
. 3180 60
Eukaryotes of the genus Plasmodium cause
malaria
, a parasitic disease responsible for substantial morbidity and mortality in humans. Yet, the nature and abundance of any viruses carried by these divergent eukaryotic parasites is unknown. We investigated the Plasmodium virome by performing a meta-transcriptomic analysis of blood samples taken from patients suffering from
malaria
and infected with P. vivax, P. falciparum or P. knowlesi. This resulted in the identification of a narnavirus-like sequence, encoding an RNA polymerase and restricted to P. vivax samples, as well as an associated viral segment of
unknown function
. These data, confirmed by PCR, are indicative of a novel RNA virus that we term Matryoshka RNA virus 1 (MaRNAV-1) to reflect its analogy to a "Russian doll": a virus, infecting a parasite, infecting an animal. Additional screening revealed that MaRNAV-1 was abundant in geographically diverse P. vivax derived from humans and mosquitoes, strongly supporting its association with this parasite, and not in any of the other Plasmodium samples analyzed here nor Anopheles mosquitoes in the absence of Plasmodium. Notably, related bi-segmented narnavirus-like sequences (MaRNAV-2) were retrieved from Australian birds infected with a Leucocytozoon-a genus of eukaryotic parasites that group with Plasmodium in the Apicomplexa subclass hematozoa. Together, these data support the establishment of two new phylogenetically divergent and genomically distinct viral species associated with protists, including the first virus likely infecting Plasmodium parasites. As well as broadening our understanding of the diversity and evolutionary history of the eukaryotic virosphere, the restriction to P. vivax may be of importance in understanding P. vivax-specific biology in humans and mosquitoes, and how viral co-infection might alter host responses at each stage of the P. vivax life-cycle.
...
PMID:Novel RNA viruses associated with Plasmodium vivax in human malaria and Leucocytozoon parasites in avian disease. 3188 17
Plasmodium vivax
is increasingly the dominant species of
malaria
in the Greater Mekong Subregion (GMS), which is pursuing regional
malaria
elimination.
P. vivax
lineages in the GMS are poorly characterized. Currently,
P. vivax
reference genomes are scarce due to difficulties in culturing the parasite and lack of high-quality samples. In addition,
P. vivax
is incredibly diverse, necessitating the procurement of reference genomes from different geographical regions. Here we present four new
P. vivax
draft genomes assembled
de novo
from clinical samples collected in the China-Myanmar border area. We demonstrate comparable length and content to existing genomes, with the majority of structural variation occurring around subtelomeric regions and exported proteins, which we corroborated with detection of copy number variations in these regions. We predicted peptides from all
PIR
gene subfamilies, except for
PIR
D. We confirmed that proteins classically labeled as
PIR
D family members are not identifiable by PIR motifs, and actually bear stronger resemblance to DUF (domain of
unknown function
) family DUF3671, potentially pointing to a new, closely related gene family. Further, phylogenetic analyses of
MSP7
genes showed high variability within the
MSP7-B
family compared to
MSP7-A
and
-C
families, and the result was comparable to that from whole genome analyses. The new genome assemblies serve as a resource for studying
P. vivax
within the GMS.
...
PMID:New
Plasmodium vivax
Genomes From the China-Myanmar Border. 3284 80
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